KR100732835B1 - Method for sensing state of destination node in impulse radio ultra wideband ad-hoc network, transmitter and receiver therefor - Google Patents

Abstract

A method for sensing a state of a destination node in an impulse radio ultra wideband an ad-hoc network, a transmitter and a receiver therefor are provided to reduce a potential collision probability by detecting the state of the destination node through a PN sequence at a low transmission power condition. A method for sensing a state of a destination node in an impulse radio ultra wideband an ad-hoc network includes the steps of: sensing a channel of a specific destination node at a source node to transmit a packet(S302); extracting a correlation result value(CCj) by acquiring a correlation of a signal which is detected by the channel sensing, based on a hopping code which is allocated to the destination node and a reference signal g(t)+g(t-delta); multiplying the correlation result value(CCj) by a binary code Bj(D) which is allocated to the destination node, and adding the result values; comparing the result values with a predetermined threshold value; and outputting a value which represents an occupied state of the destination node if the result value is larger than the threshold value, and outputting a value which represents a vacant state of the destination node if the result value is smaller than the threshold value(S303).

Description

Method for sensing the state of the destination node in the IR-X ad hoc network and a transmitter and receiver therefor {Method for Sensing State of Destination Node in Impulse Radio Ultra WideBand Ad-Hoc Network, Transmitter and Receiver Therefor}

1 is a transmitter structure according to an embodiment of the present invention,

Figure 2 is an embodiment for explaining the TH-PPM modulation form,

3 is a diagram illustrating a receiver structure according to an embodiment of the present invention;

4 is a flowchart illustrating a data transmission process to which a state detection method of a destination node is applied according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: channel encoder 120: diffuser

130: TH modulator 210: pulse correlator

220: determinant 230: despreader

240: combiner 250: threshold comparator

The present invention relates to a method for detecting a state of a destination node in an IR-UWB ad hoc network, and a transmitter and a receiver therefor. More particularly, the present invention relates to a probability of collision by detecting a state of a destination node in a network using an IR-UWB signal without a carrier. The present invention relates to a method for detecting a state of a destination node in an IR-UWB ad hoc network, and a transmitter and a receiver therefor.

Ultra-Wideband (UWB) wireless technology is a new wireless technology that is applied to communication or radar by using a very wide frequency band of several GHz or more from baseband without using a wireless carrier. In particular, the technology uses very narrow pulses of a few nanoseconds or picoseconds to share frequencies with existing mobile communication systems such as mobile, broadcast, and satellite, with very low spectral power, such as noise in conventional wireless systems. The system has emerged as a system that can be used without limitation of frequency, and the Federal Communications Commission (FCC) is limited, but it is emerging as a new next generation wireless technology by allowing commercial use of UWB wireless technology.

UWB wireless technology, which has been applied to simple wireless communication devices, has recently been applied to UWB technology for short-range broadband communication such as WLAN or WPAN using UWB technology using a high-speed wireless interface by using a UWB characteristic capable of high-speed data transmission with a wide bandwidth. Currently, the IEEE802.15 Working Group is actively working to standardize on one method of WPAN.

On the other hand, in the CSMA method of the existing communication method, the nodes to transmit the packet performs a channel sensing process to check whether there is an ongoing transmission before the transmission, and if the channel is detected to be empty for a specific time, the node will not transmit. If there is an ongoing transmission in progress, it will delay the transmission until the end of the transmission.

However, since the UWB system is limited in power by the FCC specified Power Spectral Density (PSD), it is very difficult to detect the channel state, and thus, the conventional carrier detection method can no longer be used in the UWB. In particular, since the IR-UWB system is a non-carrier method, carrier detection itself is impossible.

On the other hand, collision detection and avoidance mechanisms are very important for reducing interference and increasing network throughput in ad hoc networks. The UWB system has characteristics such as extremely short pulses and ultra-wideband to avoid interference with other cooperative narrowband systems, but there are difficulties in collision detection and prevention in UWB-based ad hoc networks.

Accordingly, the present invention is to solve the above disadvantages and problems of the prior art, to provide a new multi-access structure that can be used in the IR-UWB ad hoc network, and to determine whether the destination node idle even in a very low transmission power SUMMARY OF THE INVENTION An object of the present invention is to provide a method for detecting a state of a destination node in an IR-UWB ad hoc network and a transmitter and a receiver therefor to detect a collision using a PN sequence.

)를 기준 신호

및 상기 목적지 노드에 할당된 호핑 코드를 이용하여 상관(Correlation)을 취하여, 상관결과값(

)을 추출하는 제2단계와; 상기 상관 결과값(

)을 상기 목적지 노드에 할당된 2 위상 이진 코드인

와 곱하고, 그 결과값을 모두 합하는 제3단계와; 상기 제3단계의 결과 값을 미리 정해진 임계값과 비교하여, 임계값보다 큰 경우 상기 목적지 노드가 점유된 상태임을 나타내는 값을 출력하고, 임계값 이하인 경우 목적지 노드가 유휴 상태임을 나타내는 값을 출력하는 제4단계; 를 포함하는 IR-UWB 애드혹 네트워크에서 목적지 노드의 상태 감지 방법에 의해 달성된다.According to an aspect of the present invention, there is provided a method for detecting a state of a destination node in an IR-UWB ad-hoc network using a TH-PPM modulation method, comprising: a first step of a source node transmitting a packet sensing a channel of a specific destination node; The signal detected by the channel sensing (

Reference signal

And taking a correlation by using a hopping code assigned to the destination node,

Extracting c); The correlation result (

) Is a two-phase binary code assigned to the destination node.

Multiplying by and summing all the result values; Comparing the result value of the third step with a predetermined threshold value and outputting a value indicating that the destination node is occupied if it is larger than a threshold value, and outputting a value indicating that the destination node is idle if it is less than or equal to the threshold value. The fourth step; It is achieved by the state detection method of the destination node in the IR-UWB ad hoc network comprising a.

를 상기 목적지 노드에 할당된 2 위상 이진 PN 시퀀스인

로 확산하는 확산기와; 상기 확산기의 출력값을 이용하여 펄스의 위치를 변조하는 TH 변조기; 로 이루어지는 송신기에 의해 달성된다.In addition, the object of the present invention is a transmitter for enabling the detection of the state of the destination node in the TH-PPM modulation IR-UWB ad hoc network, the channel encoder for performing channel coding for packet transmission to the destination node; In the form of an integer value which is a hopping code assigned to a destination node to which the transmitter will send a packet.

Is a two-phase binary PN sequence assigned to the destination node.

A diffuser for diffusing into; A TH modulator for modulating the position of the pulse using the output of the spreader; It is achieved by a transmitter consisting of.

)를 기준 신호는

의 신호 파형을 이용하여 상관(Correlation)을 취하는 펄스 상관기와; 상기 펄스 상관기의 출력 값이 양수인 경우

을, 음수인 경우

을 출력하는 결정기와; 상기 결정기로부터 출력되는 각

를 상기 목적지 노드에 할당된 2 위상 이진 PN 코드인

⁾ 와 곱하는 역확산기와; 상기 역확산기로부터 출력되는 값을 모두 합하는 결합기; 및 상기 결합기의 출력값을 미리 정해진 임계값과 비교하여, 임계값보다 큰 경우 상기 목적지 노드가 점유된 상태(Busy State)임을 나타내는 값을 출력하고, 임계값 이하이면 노드로의 신호 전송이 가능함을 나타내는 값을 출력하는 임계값 비교기; 를 포함하는 수신기에 의해 달성된다.In addition, the object of the present invention is a sensing receiver for detecting a state of a destination node to which a packet will be transmitted in an IR-UWB ad-hoc network of a TH-PPM modulation method, by sensing a channel for sensing a state of the destination node. signal(

) The reference signal is

A pulse correlator for performing correlation using a signal waveform of? When the output value of the pulse correlator is positive

, If negative

A determiner for outputting; The output from the determiner

Is a two-phase binary PN code assigned to the destination node.

^A despreader that multiplies by; A combiner that sums all the values output from the despreader; And comparing the output value of the combiner with a predetermined threshold value and outputting a value indicating that the destination node is occupied when it is larger than the threshold value, and indicating that signal transmission to the node is possible when the threshold value is lower than the threshold value. A threshold comparator that outputs a value; It is achieved by a receiver comprising a.

Details of the above object and technical configuration of the present invention and the resulting effects thereof will be more clearly understood from the following detailed description based on the accompanying drawings.

First, FIG. 1 illustrates a transmitter structure according to an embodiment of the present invention.

The transmitter of the present invention emits a very short pulse as an IR-UWB signal, each bit having one or more pulses. The modulation scheme used in the transmitter of the present invention is a pulse position modulation (PPM) scheme, which uses a time hopping (PN) sequence-noise (PN) sequence for multiple access as a general modulation scheme of a UWB system.

The output signal of the kth transmitter of this structure is as follows.

는 펄스 파형을 나타내며,

는 사용자 D의 채널 감쇄,

는 프레임 구간(두 펄스 간 간격),

는 칩 구간,

는 심볼당 펄스 수,

은 변조 인덱스 십진수 코드,

는 사용자 D의 PN 시퀀스 즉, PN 호핑 코드를 나타낸다.In Equation 1,

Represents the pulse waveform,

Channel attenuation of user D,

Is the frame interval (interval between two pulses),

Is the chip interval,

Is the number of pulses per symbol ,

Is the modulation index decimal code,

Denotes the PN sequence of user D, that is, the PN hopping code.

In the PPM modulation scheme, binary digital communication can be realized by using a technique of shifting the pulse position. If the information bit is 1, the position of the pulse is shifted by δ from the emission time when the information bit is 0.

와는 다른 또 하나의

라는 새로운 2 위상 이진 PN 시퀀스가 할당되며, 따라서 전송 신호는 다음과 같이 변경된다. On the other hand, since the collision detection is not possible with the transmission signal, the PN hopping code of the user D is applied to the destination node on the IR-UWB ad hoc network in the present invention.

Another thing

A new two-phase binary PN sequence is assigned, thus the transmission signal is changed as follows.

는 사용자 D에 유일하게 할당된 2 위상 이진 PN 코드이며, 네트워크 상의 각 노드는 상기

를 구별할 수 있고, 충돌은 전송할 패킷이 있는 각 노드들에 의해 상기 2 위상 이진 PN 코드인

로부터 감지된다.In equation (2)

Is a two-phase binary PN code uniquely assigned to user D, where each node on the network is

Can be distinguished, and the collision is the two phase binary PN code by each node having a packet to transmit.

Is detected.

, 1) 블록 코드 반복 코더인 채널 인코더(110)를 통해 채널 코딩을 수행하고, 상기 자신이 패킷을 전송할 목적지 노드 D에 할당된 정수값 형태의

를 상기 목적지 노드에 할당된 새로운 PN 시퀀스인

로 확산한다.According to the transmitter model of FIG. 1, the transmitter consists of a channel encoder 110, a spreader 120 and a TH modulator 130. When the transmitter wishes to communicate with a destination node D, the spreader 120 is (

1) performing channel coding through channel encoder 110, which is a block code repetition coder, and having an integer value assigned to a destination node D to which the packet is to be transmitted.

Is a new PN sequence assigned to the destination node.

To spread.

는 오직 전송할 목적지 노드의 상태를 감지하는 데에 이용되며, 상기 PN 시퀀스의 코드 수인

는 채널 감지 소요시간에 영향을 미치므로 신중하게 선택되어야 한다. 만약,

가 너무 많으면 패킷 전송 속도는 감소되고 반대로 낮으면

의 동기화가 어려워진다. 동기화를 간단하게 하려면

의 주기와 동일한

를 선택하는 것이 바람직하다.Meanwhile, the two phase PN sequence

Is used only to detect the state of the destination node to transmit, which is the code number of the PN sequence

Should be chosen with care as it affects channel detection time. if,

Too many decreases the packet transmission rate, and conversely low

Synchronization becomes difficult. To simplify synchronization

Same as the cycle of

It is preferable to select.

는 변조 펄스의 위상 역전을 초래할 수 있 다. FIG. 2 is an exemplary diagram for explaining a TH-PPM modulation form, and illustrates a portion of a frame of a physical layer signal according to the present invention. As shown, the two-phase PN sequence

May cause phase reversal of the modulation pulses.

The structure of a receiver corresponding to the transmitter structure described with reference to FIG. 1 will now be described with reference to FIG. 3.

3 is a receiver structure according to an embodiment of the present invention, and the receiver model proposed in the present invention is a combination of FIGS. 3A and 3B.

As shown in FIGS. 3A and 3B, the receiver consists of a pulse correlator 210, a determiner 220, a despreader 120, a combiner 240, and a threshold comparator 250 that correlate to received pulses.

부분이 송신 신호에 추가되었기 때문에, 수신기는 데이터 획득을 위한 구조와, 데이터 감지를 위한 구조로 나뉠 수 있으며, 본 발명에서는 데이터 감지를 위한 수신기 구조만을 다룬다.The receiver model of FIG. 3 proposed by the present invention is not a receiver structure for data acquisition, but a receiver structure for detecting an idle state of a destination node, and in the present invention, a two-phase binary PN code.

Since the part is added to the transmission signal, the receiver can be divided into a structure for data acquisition and a structure for data sensing, and the present invention deals only with a receiver structure for data sensing.

The receiver of the present invention checks whether the destination D is in an idle state, and the correlation template equation of the correlator bank of the pulse correlator 210 of the present sensing receiver is as follows.

와 2 위상 이진 코드

를 이용하여 이루어진다. When sender S sends a packet to destination D, the state detection of the destination node is the hopping code assigned to the destination node.

And 2-phase binary code

Is done using.

로 표시된다.Since a transmitter to transmit a packet senses a channel and receives a signal to detect a state of a destination node, it is represented as a receiver in the present invention.

Is displayed.

에 의해 역상이 될 수 있으므로, 펄스 상관기(210)를 사용하여 먼저 PN 시퀀스

를 포착해야 한다. 펄스 상관기(210)의 기준 신호는

의 신호 파형으로, 여기에서

는

와

의 상관값을 0으로 만든다. 여기에서 기준 신호는 UWB TH-PPM 시스템에서의 일반적인 기준 신호

가 아님을 주목해야 한다. 본 발명의 변조 방식에는 또 다른 PN 시퀀스가 추가된 것으로, 수신기의 신호 복조의 목적은 신호를 단지 감지하는 것이기 때문이다.Signal is a two-phase binary code

Can be reversed by PN sequence using pulse correlator 210

Should be captured. The reference signal of the pulse correlator 210

Signal waveform, where

Is

Wow

Let the correlation of be zero. Here the reference signal is a common reference signal in the UWB TH-PPM system

Note that is not. Another PN sequence is added to the modulation scheme of the present invention, since the purpose of signal demodulation in the receiver is to only detect a signal.

로 출력하고. 그 반대라면

로 출력한다.

는

의 주기성을 가리킨다.If the output of the pulse correlator 210 or the calculation result is greater than zero, the determiner 220

To output. Vice versa

Will output

Is

Indicates the periodicity of

를

와 곱하고, 결합기(240)는 상기 각 역확산기(120)로부터 출력되는 값을 모두 합한다.Despreader 230 is an angle output from the determiner 220

To

And the combiner 240 sums all the values output from the respective despreaders 120.

The threshold comparator 250 compares the output value of the combiner 240 with a predetermined threshold value and outputs a value indicating that the node D is Busy State if it is larger than the threshold value. Outputs a value indicating that signal transmission to the network is possible.

If it is detected that the destination node is occupied, the receiver of the present invention waits for a random back-off time, then attempts to retransmit the packet and vice versa immediately.

The above-described receiver of the present invention enables the destination node D to receive the transmission data, and in combination with a general UWB system receiver, that is, the sensing receiver of the present invention, of the data acquisition receiver, demodulates the transmission data to acquire the data.

4 illustrates a data transmission process to which the state detection method of the destination node by the receiver of the present invention is applied.

As shown in FIG. 4, when a transmission event of a data packet occurs in a receiver of the present invention (S301), the receiver senses a channel (S302) to assign a received signal to a hopping code and a two-phase binary code newly allocated in the present invention. Demodulate using S, and compare the result value with a threshold to determine whether the destination node is occupied (S303).

As a result of the determination, when the destination node is currently receiving data, the receiver of the present invention waits for the back-off time (S304), and then performs the step of sensing the channel again (S302). If it is detected that the destination node is in an idle state, data transmission is immediately attempted (S305). If sensing the state of the destination node is changed to the idle state as a result of sensing the channel, data transmission is resumed.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above should be understood as illustrative and not restrictive in all aspects. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Accordingly, according to the present invention, a method for detecting a state of a destination node in the IR-UWB ad hoc network and a transmitter and a receiver therefor provide a new multiple access structure that can be used in an IR-UWB ad hoc network, even in a situation where transmission power is very low. The possibility of potential collision can be reduced by detecting whether the destination node is idle using the PN sequence.

Claims (6)

A state-detection method of a destination node in a TH-PPM modulation IR-UWB ad hoc network, A first step of sensing, by a source node to which a packet is to be sent, a channel of a specific destination node; The signal detected by the channel sensing (

Reference signal

And taking a correlation by using a hopping code assigned to the destination node,

Extracting c); The correlation result (

) Is a two-phase binary code assigned to the destination node.

Multiplying by and summing all the result values; Comparing the result value of the third step with a predetermined threshold value and outputting a value indicating that the destination node is occupied if it is larger than a threshold value, and outputting a value indicating that the destination node is idle if it is less than or equal to the threshold value. The fourth step; State detection method of the destination node in the IR-UWB ad hoc network comprising a. The method of claim 1, The first step is performed when a packet transmission event occurs to the destination node. After the fourth step, If the output value of the fourth step is a value indicating that the destination node is idle, the source node immediately transmits a packet to the destination node, and if the value indicates that the destination node is occupied, waits for a random back-off time. A fifth step of feeding back to the first step; The status detection method of the destination node in the IR-UWB ad hoc network, characterized in that further comprising. The method of claim 2, In the fifth step, The source node transmits a TH-PPM modulated signal to the destination node by spreading a hopping code of the destination node in a PN sequence consisting of a two-phase binary code of the destination node when transmitting a packet to the destination node. State detection method in the IR-UWB ad hoc network. A transmitter that enables status detection of a destination node in a TH-PPM modulation IR-UWB ad hoc network. A channel encoder for performing channel coding for packet transmission to a destination node; In the form of an integer value which is a hopping code assigned to a destination node to which the transmitter will send a packet.

Is a two-phase binary PN sequence assigned to the destination node.

A diffuser for diffusing into; A TH modulator for modulating the position of the pulse using the output of the spreader; Transmitter characterized in that consisting of. The method of claim 4, wherein

The pulse waveform,

Is the channel attenuation of the destination node,

Is the frame interval,

Is the chip interval,

Is the number of pulses per symbol ,

Is the modulation index decimal code,

Is the PN hopping code of the destination node, The transmission signal of the transmitter

Transmitter characterized in that. A detection receiver for detecting a state of a destination node to which a packet will be transmitted in an IR-UWB ad-hoc network with a TH-PPM modulation scheme. Signal received by sensing a channel to detect the state of the destination node

Reference signal

A pulse correlator for performing correlation using a signal waveform of? When the output value of the pulse correlator is positive

, If negative

A determiner for outputting; The output from the determiner

Is a two-phase binary PN code assigned to the destination node.

^A despreader that multiplies by; A combiner that sums all the values output from the despreader; And Compares the output value of the combiner with a predetermined threshold value, and outputs a value indicating that the destination node is occupied when it is greater than the threshold value, and a value indicating that signal transmission to the node is possible when the threshold value is less than the threshold value. A threshold comparator that outputs a; Receiver comprising a.

Images